V. V. Savelyev scite author profile

Quasi-spherical supersonic (Bondi-type) accretion to a star with a dipole magnetic field is investigated using resistive magnetohydrodynamic simulations. A systematic study is made of accretion to a nonrotating star, while sample results for a rotating star are also presented. We find that an approximately spherical shock wave forms around the dipole with an essential part of the star's initial magnetic flux compressed inside the shock wave. A new stationary subsonic accretion flow is established inside the shock wave with a steady rate of accretion to the star smaller than the Bondi accretion rateṀ B . Matter accumulates between the star and the shock wave with the result that the shock wave expands. Accretion to the dipole is almost spherically symmetric at radii larger than 2R A , where R A is the Alfvén radius, but it is strongly anisotropic at distances comparable to the Alfvén radius and smaller. At these small distances matter flows along the magnetic field lines and accretes to the poles of the star along polar columns. The accretion flow becomes supersonic in the region of the polar columns. In a test case with an unmagnetized star, we observed spherically-symmetric stationary Bondi accretion without a shock wave. The accretion rate to the dipoleṀ dip is found to depend on β ∝Ṁ B /µ 2 , where µ is the star's magnetic moment, and η m the magnetic diffusivity. Specifically,Ṁ dip ∝ β 0.5 andṀ dip ∝ η 0.38 m . The equatorial Alfvén radius is found to depend on β as R A ∝ β −0.3 which is close to theoretical dependence ∝ β −2/7 . There is a weak dependence on magnetic diffusivity, R A ∝ η 0.07 m . Simulations of accretion to a rotating star with an aligned dipole magnetic field show that for slow rotation the accretion flow is similar to that in non-rotating case with somewhat smaller values ofṀ dip . In the case of fast rotation the structure of the subsonic accretion flow is fundamentally different and includes a region of "propeller" outflow. The methods and results described here are of general interest and can be applied to systems where matter accretes with low angular momentum.

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On the propagation of a ruby laser high-coherent radiation through an optical amplifier

Mikaelian

Savelyev²,

Turkov³

1968

IEEE J. Quantum Electron.

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Equilibrium configurations of plasma in the approximation of two-fluid magnetohydrodynamics with electron inertia taken into account

Gavrikov

Savelyev

2009

J Math Sci

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Comparative analysis of the equilibrium configurations and radiation transport in the Galatea traps 'Trimix' and 'Trimix-3M'

2018

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О р д е н а Л е н и н а ИНСТИТУТ ПРИКЛАДНОЙ МАТЕМАТИКИ имени М.В.Келдыша Р о с с и й с к о й а к а д е м и и н а у к А.Н. Козлов, В.С. Коновалов, В.В. Савельев Сравнительный анализ равновесных конфигураций и переноса излучения в ловушках-галатеях «Тримикс» и «Тримикс-3М» Москва-2018 Козлов А.Н., Коновалов В.С., Савельев В.В. Сравнительный анализ равновесных конфигураций и переноса излучения в ловушках-галатеях «Тримикс» и «Тримикс-3М» Представлены равновесные магнитоплазменные конфигурации, полученные для ловушек-галатей на основе уравнения Грэда-Шафранова. Проведено исследование спектрального поля излучения и его интегральных характеристик в магнитных ловушках «Тримикс» и «Тримикс-3М».

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V. V. Savelyev

Fundamentals of Stationary Plasma Thruster Theory

Spherical Bondi Accretion onto a Magnetic Dipole

On the propagation of a ruby laser high-coherent radiation through an optical amplifier

Equilibrium configurations of plasma in the approximation of two-fluid magnetohydrodynamics with electron inertia taken into account

Comparative analysis of the equilibrium configurations and radiation transport in the Galatea traps 'Trimix' and 'Trimix-3M'

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